Department of Pharmaceutical Sciences, College of Pharmacy, Oregon State University, Portland, OR, 97201, USA.
Department of Ophthalmology, Casey Eye Institute, Oregon Health & Science University, Portland, OR, 97201, USA.
Small. 2024 Sep;20(37):e2400815. doi: 10.1002/smll.202400815. Epub 2024 May 13.
Complete encapsulation of nucleic acids by lipid-based nanoparticles (LNPs) is often thought to be one of the main prerequisites for successful nucleic acid delivery, as the lipid environment protects mRNA from degradation by external nucleases and assists in initiating delivery processes. However, delivery of mRNA via a preformed vesicle approach (PFV-LNPs) defies this precondition. Unlike traditional LNPs, PFV-LNPs are formed via a solvent-free mixing process, leading to a superficial mRNA localization. While demonstrating low encapsulation efficiency in the RiboGreen assay, PFV-LNPs improved delivery of mRNA to the retina by up to 50% compared to the LNP analogs across several benchmark formulations, suggesting the utility of this approach regardless of the lipid composition. Successful mRNA and gene editors' delivery is observed in the retinal pigment epithelium and photoreceptors and validated in mice, non-human primates, and human retinal organoids. Deploying PFV-LNPs in gene editing experiments result in a similar extent of gene editing compared to analogous LNP (up to 3% on genomic level) in the Ai9 reporter mouse model; but, remarkably, retinal tolerability is significantly improved for PFV-LNP treatment. The study findings indicate that the LNP formulation process can greatly influence mRNA transfection and gene editing outcomes, improving LNP treatment safety without sacrificing efficacy.
脂质纳米颗粒(LNPs)对核酸的完全包裹通常被认为是成功递送核酸的主要前提之一,因为脂质环境可以保护 mRNA 免受外部核酸酶的降解,并有助于启动递送过程。然而,通过预先形成的囊泡方法(PFV-LNPs)递送 mRNA 则违背了这一前提。与传统 LNPs 不同,PFV-LNPs 是通过无溶剂混合过程形成的,导致 mRNA 定位在表面。虽然在 RiboGreen 测定中显示出低的封装效率,但与几种基准配方的 LNP 类似物相比,PFV-LNPs 可将 mRNA 递送至视网膜的效率提高多达 50%,这表明无论脂质组成如何,这种方法都具有实用性。在视网膜色素上皮细胞和光感受器中观察到成功的 mRNA 和基因编辑递送至,并在小鼠、非人类灵长类动物和人视网膜类器官中得到验证。在基因编辑实验中部署 PFV-LNPs 可导致与类似 LNP (在 Ai9 报告小鼠模型中高达基因组水平的 3%)相似的基因编辑程度;但值得注意的是,PFV-LNP 治疗的视网膜耐受性显著提高。研究结果表明,LNP 配方过程可以极大地影响 mRNA 转染和基因编辑的结果,在不牺牲疗效的情况下提高 LNP 治疗的安全性。
